Aerospace industry
In the combustion chamber, turbine blades, tail nozzle and other parts of aircraft engines, they need to withstand high temperatures, high-speed airflow erosion and complex thermal stress environments. Organic silicon high-temperature resistant coatings can effectively protect these components, prevent them from being oxidized and corroded by high temperatures, ensure stable and reliable operation of aircraft engines under high temperature conditions, and improve aircraft flight safety and performance.
The outer surface and key parts of rockets and spacecraft, such as engines, also face extreme high temperature environments. During launch and space flight, organic silicon high-temperature resistant coatings play a role in insulation, thermal shock resistance, and resistance to special space environments, helping to maintain the structural integrity of spacecraft and ensure the smooth progress of space missions.
Power industry
Equipment such as boilers, steam turbines, superheaters, reheaters, and high-temperature steam pipelines in power plants are exposed to high temperature and high pressure steam environments for a long time. Organic silicon high-temperature resistant coatings can play a good role in corrosion and oxidation resistance, slow down the corrosion rate of equipment, reduce material performance degradation caused by high temperature, extend the service life of equipment, and ensure the continuous and stable operation of power production.
Some high-voltage electrical equipment in substations, such as transformers, reactors, and other high-temperature components, can improve their safety and reliability by utilizing the electrical insulation and high-temperature resistance properties of organic silicon high-temperature resistant coatings, while ensuring the normal operation of the equipment.
Petrochemical industry
The core equipment of various reaction vessels, distillation towers, heat exchangers, etc. in refineries often face the combined effects of high temperature and corrosive media (such as strong acids, strong bases, organic solvents, etc.) during the processing of petroleum and various chemical raw materials. Organic silicon high-temperature resistant coatings can withstand high temperatures and form effective protective barriers, blocking the contact of corrosive media with equipment surfaces, protecting equipment from damage, and ensuring the normal operation of production processes.
The high-temperature pipelines, storage tanks, and other facilities in chemical plants are coated with organic silicon high-temperature resistant coatings to prevent damage caused by long-term exposure to high temperatures and corrosive environments, reduce safety hazards such as leaks, and improve the safety and stability of chemical production.
Metallurgical industry
The lining and outer shell of high-temperature furnaces such as blast furnaces, converters, electric furnaces, and heating furnaces in steel enterprises are coated with organic silicon high-temperature resistant coatings, which can resist high temperatures, slag erosion, and stress caused by frequent thermal expansion and contraction, reduce equipment maintenance frequency, extend the service life of furnaces, and improve metallurgical production efficiency.
The high-temperature melting equipment and refining equipment involved in the smelting process of non-ferrous metals can be protected from oxidation and corrosion in high-temperature environments by coating with organic silicon high-temperature resistant coatings, ensuring the quality and continuity of production of non-ferrous metals.
Automotive industry
The exhaust pipes, mufflers, cylinder heads, and other parts of automobile engines operate at high temperatures. Organic silicon high-temperature resistant coatings can provide insulation, corrosion prevention, noise reduction, and other functions to prevent performance degradation and premature damage of components due to high temperatures, improve the durability of automobile engines and related components, and extend the service life of automobiles.
For some high-performance racing cars or special vehicles, key high-temperature components such as engines require higher performance in terms of high temperature resistance and thermal shock resistance, and organic silicon high-temperature resistant coatings are indispensable protective materials.
Electronic and electrical industry
Electronic components, especially those with high power, generate heat during operation. If the heat dissipation is not timely, it is easy to cause overheating and damage. Organic silicon high-temperature resistant coating can be applied to components such as heat sinks and power modules, which not only helps with heat dissipation but also protects components from external high-temperature environments to a certain extent, ensuring the normal operation of electronic and electrical equipment.
The internal high-temperature chambers and heating elements of household appliances such as electric ovens and microwave ovens are coated with organic silicon high-temperature resistant coatings to improve their temperature resistance, corrosion resistance, extend the service life of the appliances, and ensure safety during use.
Building materials industry
In the field of construction, some steel structures, metal roofs, etc., if located in high-temperature environments (such as near industrial heat sources, direct sunlight in high-temperature areas, etc.), organic silicon high-temperature resistant coatings can provide protection, prevent metal structures from being oxidized and corroded by high temperatures, and maintain the stability and aesthetics of the building structure.
Coating the masonry material surface of high-temperature industrial kilns with organic silicon high-temperature resistant coating can enhance their thermal shock resistance and high-temperature resistance, which helps to improve the overall performance and service life of the kiln.

Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.    
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.